CME312         Electronic Engineering
               Credits: 3 (3,1,0)      Prerequisites: CME211
                   This  course  enables  the  students  to  understand  the  DC  and  AC  analysis,  and  modelling  of
                   multistage configuration based on BJT, FET, MOSFET. This course also helps to analyze and design
                   the different electronic circuitries- CMOS circuit such as NAND Gates, Transmission Gates and
                   memory elements.

               CME322         Microprocessors Design
               Credits: 4 (3,1,2)      Prerequisites: CME211, CME221
                   The course will focus primarily on basic embedded system concepts and the student will learn the
                   basics of designing, interfacing, configuring, and programming embedded systems. One of popular
                   microcontroller is selected to implement the techniques learned in class. By the end of the course
                   the student will have mastered the basics of embedded system design and programming.

               CME341         Electromagnetics Fundamental
               Credits: 3 (3,1,0)      Prerequisites: MATH215, MATH225, CME201
                   This  module  is  designed  to  introduce  the electromagnetic  fields.  Coulomb's  law,  Gauss's  law,
                   electrical potential, dielectric materials capacitance, boundary value problems, Biot-Savart law,
                   Ampere's law, Lorentz force equation, magnetic materials, magnetic inductance, time varying
                   fields and Maxwell's equations.

               CME342         Electromagnetic Waves and Transmission Lines
               Credits: 3 (3,1,0)      Prerequisites: CME341
                   This course is an introduction to Power Electronics. It enables the student to understand the basic
                   Power Electronics components, operations, design, and the analysis of basic power electronics
                   converter circuits. The course is focused on the applications of the power converter in various
                   sectors, e.g., industrial, electric grid, renewable energy, microgrid, electric vehicle, etc. In addition,
                   the  course  covers  the  basic  characteristics,  control  schemes,  and  applications  of  power
                   semiconductor devices and circuits.

               CME351         Communication Systems
               Credits: 4 (3,1,2)      Prerequisites: CME211, CME231
                   In this course, we focus on signal transforms and continuous-wave modulation, which is the basic
                   operation  of  analog  communication  systems.  Initially,  we  give  the  students  an  insight  and
                   understanding of signals classifications, Fourier series, Fourier transform, spectrum analysis, and
                   explore  their  applications  in  the  context  of  analog  communication  systems.  We  then  cover
                   thoroughly amplitude modulation including the generation and reception of double-side band,
                   single  side-band,  and  vestigial  side-band.  We  also  cover  the  angle  modulations  (phase  and
                   frequency), the generation both the narrow and wide-band angle modulation.

               CME352         Digital Communications
               Credits: 3 (3,1,0)      Prerequisites: CME351
                   The students will learn the fundamentals of electrical machinery. They will learn to analyze the
                   voltage-current, torque-speed characteristics of the different machines. The students also will be
                   able to understand the transformers, principles, and operation







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